This invention concerns a system for disinfecting medical instruments.

In the state-of-the-art we are already aware of disinfecting systems of this type which comprise for example a disinfection chamber adapted to implement an instrument disinfection cycle.

These chambers can for example be chambers combined with means of emitting type UVC UV radiation for example or with means of chemical disinfection, etc.

As an example, reference can be made to document EP-A-0839537 which describes a device for holding instruments in a chamber in particular a decontamination chamber and a corresponding chamber.

In fact this document refers to a decontamination chamber for medical instruments delimited by a base, at least one side wall and an upper cover, with each instrument having an active part and a connection part in the form of a cable.

This chamber also has a bracket extending into the interior and into the upper part of the chamber, in parallel with the base and overhanging the base, with this bracket comprising numerous suspension elements, each of these being intended to cooperate with part of the neighbouring cable from the active part of the instrument.

This chamber is also combined with means for example with tubes emitting type C UV radiation into the latter for example in order to ensure disinfecting of the instruments.

Obviously, other means of disinfecting can be envisaged.

However, all the systems in the state-of-the-art pose a number of problems in particular with regard to the traceability of instrument disinfection.

The purpose of the invention is therefore to resolve these problems.

To this end, the subject of the invention is a disinfection chamber adapted to implement an instrument disinfection cycle, characterised in that each instrument is combined with a radiofrequency label containing identification information and in that the chamber is combined with radiofrequency means of acquiring identification information about the or each instrument when put in place and removed from the chamber at the start and end of a disinfection cycle, with means of acquiring information characterising the disinfection cycle and with means of combining identification information about the or each instrument with information characterising the disinfection cycle in order to generate traceability information about the disinfection of the or each instrument.

According to the particular methods of construction, the chamber in accordance with the invention has one or several of the following characteristics:

• • the chamber has a bracket for suspending instruments;
  • the means of acquiring information characterising the disinfection cycle comprise means of acquiring information selected from the group of information containing information identifying the chamber and information relating to the date and time of the disinfection cycle;
  • the chamber has means for generating UV radiation for disinfecting the instruments and the information characterising the disinfection cycle comprises information on the dose of UV issued during the cycle, from a corresponding sensor located in the chamber;
  • the UV sensor is located under the chamber bracket;
  • the means of combining information are combined with means for displaying, storing and/or printing this information;
  • the means of combining information are adapted so as to issue information on traceability only if the corresponding instrument was clearly identified when put in place and removed from the chamber before and after the disinfection cycle, respectively.

The invention will be better understood using the following description, provided solely as an example and produced with reference to the attached drawing which represents a block diagram illustrating the structure and functioning of a disinfection system according to the invention.

In fact this FIGURE illustrates a system for disinfecting medical instruments.

An instrument of this type is for example designated by the general reference 1 on this FIGURE and is presented for example in the form of a probe of an echographic probe type or other.

This probe then has an active part designated by the general reference 2 and a connection cable designated by the general reference 3.

This probe is adapted to be put in place and removed from a disinfection chamber designated by the general reference 4 on the FIGURE. This disinfection chamber is adapted to implement an instrument disinfection cycle.

As mentioned previously, various types of chamber and various types of disinfection cycles can be envisaged whether this involves for example radiation, chemical or other disinfection.

In the system according to the invention, each instrument carries information identifying it.

This identification information can be stored in an electronic radiofrequency label designated by the general reference 5 on the FIGURE, with this label being for example carried by the active part or even by the instrument connection cable.

Obviously, other methods of construction can be envisaged.

The chamber is then combined with radiofrequency means for acquiring this identification information for each instrument.

These means of acquiring this identification information are designated by the general reference 6 on this FIGURE and comprise for example any appropriate sensor of a traditional type, placed for example in the chamber.

This sensor is then adapted to acquire identification information about the or each instrument when placed in and removed from the chamber at the start and end of a disinfection cycle.

As an example, these means of acquisition can be presented in the form of a sensor directly integrated in the disinfection chamber for example on the bracket of the chamber described in document EP-A-0839537 referred to previously or even in the latter's side walls.

In addition, the chamber is combined with means of acquiring information characterising the decontamination cycle, namely more specifically the conditions of its progress.

These means are designated by the general reference 7 on this FIGURE and can consist of various types of means of acquiring information adapted to acquire information selected from a group of information comprising for example information identifying the chamber, with each chamber then being allocated a specific identification number stored in the latter, with information on dating the cycle for example allowing acquisition of the date of the cycle, the daily number of the cycle, the start time and end time of the cycle, from a circuit forming a clock, etc.

This characterisation information can also contain information relating to the dose of UV emitted during a cycle if the chamber is a disinfecting chamber equipped with means for generating disinfecting UV radiation.

This information can then be determined from a sensor of any appropriate type already known in the state-of-the-art and designated for example by the general reference 8 on this FIGURE.

This sensor can then be located for example under the bracket of the chamber described in the EP document referred to previously.

This various information, namely the information identifying the or each instrument and the information characterising the disinfection cycle, is then transmitted to a unit for processing information designated by the general reference 9 on this FIGURE and constituted by any appropriate calculator, for example integrated in the means for regulating the chamber operations, in order to implement a function for combining this information in order to generate disinfecting traceability information.

In fact, this information processing unit 9 is adapted to combine the identification information of the or each instrument present in the chamber during a disinfection cycle with the information characterising the progress of this cycle, in order to issue the information capable of guaranteeing the disinfecting traceability of the or each instrument.

This traceability information is designated by the general reference 10 on the FIGURE and therefore allows each instrument to be brought into relation with the conditions under which the corresponding disinfection cycle takes place.

It should be pointed out that this traceability information can only be issued if an instrument has been clearly identified at the time of its introduction into the chamber prior to the start of the cycle and when it is removed from this chamber after the end of this cycle.

It is therefore essential for the operator to identify the instrument when it is put in place and removed from the chamber. If this is not the case, the information processing unit does not generate the traceability information.

This traceability information is then available to ensure the traceability of the disinfection operation with a view for example to storing this information in information storage means as illustrated in 11 on this FIGURE, to displaying this for example on any display designated by the general reference 12, or even by a print-out of this information for example using any printing means such as a printer designated by the general reference 13.

It can be seen for example that a printer of this type can be adapted to print traceability information on a sticker which can be associated for example with a file on the patient who has been in contact with the disinfected instrument, a traceability register, etc.

As an example, the characterisation information carried by this sticker then contains information about the UV dose received by the instrument when it moves into the disinfecting chamber, with this dose being for example determined from the UV power or irradiation issued during the cycle multiplied by the duration of this cycle.

We know in fact that this parameter can be a determining factor for obtaining this or that level of instrument disinfection.

We then believe that a system of this type is able to ensure optimum traceability for disinfecting instruments of this type insofar as the traceability information is able to guarantee that the instrument has passed into the chamber and to check the information on the characterisation of the disinfection cycle to which the instrument has been submitted, namely in particular the point when this disinfection took place, the chamber in which the disinfection cycle took place and in particular the dose of UV received by the instrument.

Obviously, other methods of construction can still be envisaged.